A sensitive method for the detection of mutagenic nitroarenes: construction of nitroreductase-overproducing derivatives of Salmonella typhimurium strains TA98 and TA100

'Classical nitroreductase' is an enzyme involved in the intracellular metabolic activation of mutagenic nitroarenes. The nitroreductase gene of Salmonella typhimurium TA1538 was cloned into pBR322 and the plasmids harboring the gene were introduced into TA98 and TA100. The resulting strains (YG1021 and YG1026) had more than 50 times higher nitrofurazone-reductase activity than TA1538 containing pBR322, and were extremely sensitive to the mutagenic action of 2-nitrofluorene, 1-nitropyrene and 2-nitronaphthalene. These results indicate that the new strains permit the efficient detection of mutagenic nitroarenes.     

Construction and characterization of new cloning vehicles. III. Derivatives of plasmid pBR322 carrying unique Eco RI sites for selection of Eco RI generated recombinant DNA molecules.

In vitro recombinant DNA techniques were used to construct two new cloning vehicles, pBR324 and pBR235. These vectors, derived from plasmid pBR322, are relaxed replicating elements. Plasmid pBR324 carries the genes from pBR322 coding for resistance to the antibiotics ampicillin (Apr) and tetracycline (Tcr) and the colicin E1 structural and immunity genes derived from plasmid pMBI. Plasmid pBR325 carries the Apr and Tcr genes from pBR322 and the cloramphenicol resistance gene (Cmr) from phage P1Cm. In these plasmids the unique EcoRI restriction site present in the DNA molecule is located either in the colicin E1 structural gene (pBR324) or in the Cmr gene (pBR325). These vectors were constructed in order to have a single EcoRI site located in the middle of a structural gene which when inactivated would allow, for the easy selection of plasmid recombinant DNA molecules. These plasmids permit the molecular cloning and easy selection of EcoRI, BamHI, HindIII, PstI, HincII, SalI, (XamI), Smal, (XmaI), BglII and DpnII restriction generated DNA molecules.     

Deletion and rearrangement of plasmid DNA during transformation of Escherichia coli with linear plasmid molecules.

When E. coli was transformed with linearized pBR322 DNA, many transformants contained recircularized plasmids bearing deletions and other rearrangements. Most aberrant molecules were less than monomeric length and had lost the restriction site used for linearization, with the deleted region extending mono- (type Ia) or bi-directionally (type Ib). Type II deletants were greater than monomeric but less than dimeric and contained the pBR322 sequence in direct repeat with deletion at one or both junctions (type IIa) or in inverted repeat with loss of sequence at both junctions (type IIb). Type III deletants were greater than dimeric but less than trimeric, consisting of pBR322 sequences in both direct and inverse repeat with deletions at two or more junctions. Transformation frequencies for linear DNA were drastically reduced in xth-1- bacteria with type IIb deletants predominating in transformants. This indicates that exonuclease III is important for perfect recyclization of plasmids and the generation of type I deletants. In vivo recyclization of in vitro ligation products explains many of the aberrant DNA molecules that are encountered during gene cloning.     

Sensitive method for the detection of mutagenic nitroarenes and aromatic amines: new derivatives of Salmonella typhimurium tester strains possessing elevated O-acetyltransferase levels

Acetyl-CoA: N-hydroxyarylamine O-acetyltransferase is an enzyme involved in the intracellular metabolic activation of arylhydroxylamines derived from mutagenic nitroarenes and aromatic amines. The acetyltransferase gene of Salmonella typhimurium TA1538 was cloned into pBR322 and the plasmids harboring the gene were introduced into TA98 and TA100. The resulting strains (YG1024 and YG1029) had about 100 times higher 2-hydroxyamino-6-methyldipyrido[1,2-a:3',2'-d]-imidazole (N-hydroxy-Glu-P-1) O-acetyltransferase activity than TA1538 containing pBR322, and were extremely sensitive to the mutagenic actions of 2-nitrofluorene, 1-nitropyrene, 1,8-dinitropyrene, 2-amino-6-methyldipyrido[1,2-a:3',2-d)-imidazole (Glu-P-1), 2-aminofluorene and 2-aminoanthracene. These results indicate that the new strains permit the efficient detection of the mutagenicity of environmental nitroarenes and aromatic amines.     

Isolation of cis-acting vaccinia virus DNA fragments promoting the expression of herpes simplex virus thymidine kinase by recombinant viruses.

Recombinant TK- vaccinia viruses containing the pBR322 sequence inserted in either orientation within the coding sequence of the viral thymidine kinase gene were constructed. They were characterized by genomic analysis, hybridization studies, reversion to wild-type virus by in vivo recombination, and rescue from their genomes of plasmids which contained all or parts of the pBR322 sequence. TK- cells were infected with one of these recombinant viruses and then transfected with pools of chimeric plasmids composed of a cloned herpes simplex virus thymidine kinase gene which contained upstream inserts of different vaccinia DNA fragments prepared by restriction or sonication. Recombination between homologous pBR322 sequences within infected cells generated selectable recombinant viruses in which expression of the herpes simplex virus thymidine kinase gene was promoted by the upstream vaccinia insert. These viruses were characterized by genomic analysis, hybridization, and in vivo or in vitro phosphorylation of (5-[125I]deoxycytidine as a specific assay for the expressed herpes simplex virus thymidine kinase. Vaccinia DNA inserts were isolated conveniently for transfer to bacteria by rescuing appropriate plasmids from the genome of recombinant viruses. The sequence of 100 nucleotides adjacent to the upstream region of the herpes simplex virus gene was determined in nine different inserts measuring 0.17 to 1.07 kilobase pairs.     

人胃癌细胞株BGC-823 DNA二轮转化细胞基因组文库的构建及其转化基因的克隆

以人胃癌细胞株BGC-823 DNA二轮转化的鼠成纤维细胞为材料,用λ噬菌体EMBL_3,作克隆载体,构建了转化细胞的基因组文库。用~(32)P标记的人Alu重复顺序和原癌基因c-Ha-ras为探针,对100万基因文库噬斑进行原位杂交筛选,找出了两个可以同时与上述探针杂交的阳性克隆。经对两个阳性克隆DNA进行分子杂交表明,它们均含有来自人胃癌细胞株BGC-823的转化基因Ha-ras,进一步运用质粒载体pBR322对这一转化基因进行次级克隆,并进行了限制性内切酶图谱的初探,从而为研究胃癌转化基因的结构、DNA序列及与原癌基因的异同奠定了基础。     

Construction and characterization of new cloning vehicles. IV. Deletion derivatives of pBR322 and pBR325

In vitro recombinant DNA experiments involving restriction endonuclease fragments derived from the plasmids pBR322 and pBR325 resulted in the construction of two new cloning vehicles. One of these plasmids, designated pBR327, was obtained after an EcoRII partial digestion of pBR322. The plasmid pBR327 confers resistance to tetracycline and ampicillin, contains 3273 base pairs (bp) and therefore is 1089 bp smaller than pBR322. The other newly constructed vector, which has been designated pBR328, confers resistance to chloramphenicol as well as the two former antibiotics. This plasmid contains unique HindIII, BamHI and SalI sites in the tetracycline resistance gene, unique PvuI and PstI sites in the ampicillin resistance gene and unique EcoRI, PvuII and BalI sites in the chloramphenicol resistance gene. The pBR328 plasmid contains approx. 4900 bp.     

Restriction mapping of recombinant plasmids carrying the genes for arginine biosynthesis in Escherichia coli K-12

ArgA and argECBH genes of Escherichia coli K-12 were cloned on the pBR322 vector. Restriction maps of the recombinant plasmids were constructed. Deletion mutants of these recombinant plasmids, retaining the functional argA and argE genes, were obtained using different restriction enzymes. All of the recombinant derivatives have the replication properties of the pBR322 vector.     

Immunological screening of standard cDNA libraries in pBR322 vectors: detection of human fibrinogen and prothrombin cDNA clones

The in situ immunological detection of antigens encoded by cDNA inserted into the PstI site of pBR322 plasmids was optimized. It was found that sensitivity of the detection was dramatically increased by in situ amplification of the recombinant plasmids on chloramphenicol-containing medium followed by a brief incubation without chloramphenicol during which protein synthesis resumes. In addition, several modifications of the previously described methods which permit total suppression of background and false positives are described. These techniques allowed easy detection of cDNA clones for human B beta- and gamma-fibrinogen and -prothrombin using a human liver double-stranded cDNA recombinant plasmid library in pBR322 vectors.     

Recovery of recombinant bacterial plasmids from E. coli transformed with DNA from microinjected mouse cells

We have previously described the isolation of thymidine kinase positive (TK+), human beta-globin gene-containing colonies following co-microinjection of mouse TK- L cells with two recombinant pBR322 plasmids, one containing the TK gene of herpes simplex virus type I (plasmid pXl), and the second containing a human genomic DNA fragment within which is the human beta-globin gene (plasmid pRKl). DNA isolated from one such clone was used in bacterial transformation experiments with a selection for tetracycline-resistant colonies (that is, for cells containing pRKl). A total of forty-two tetracycline-resistant colonies were isolated, thirty of which contained circular pRK1 molecules identical to those originally injected. The remaining twelve colonies contained unique plasmids that were grouped into five different classes of recombinant molecules. All five of these unique recombinant classes appear to contain a common deletion endpoint occurring at a specific region of the pBR322 segment of pRKl. Four of the unique recombinant classes appear to have arisen from the deletion of a segment of a pRKl trimer or dimer molecule, while the fifth class appears to have resulted from recombination between pRKl and pXl followed by a deletion event within this recombinant. It is uncertain whether these deletions are occurring within the eukaryotic cell or upon subsequent transformation of the bacterial cell. If the latter, then the passage of the plasmid DNA through the eukaryotic cell alters a specific site of the pBR322 DNA in such a way that deletions can occur at a high frequency in this region when the plasmid DNA is introduced back into a bacterial cell. Thus, we have established a prokaryote-eukaryote-prokaryote DNA transfer and recovery system which should be useful in studies on DNA replication and the regulation of gene expression in higher eukaryotes.     

Cloning of a restriction-modification system from Proteus vulgaris and its use in analyzing a methylase-sensitive phenotype in Escherichia coli.

A 4.84-kilobase-pair plasmid was isolated from Proteus vulgaris (ATCC 13315) and cloned into the plasmid vector pBR322. Plasmid pBR322 contains substrate sites for the restriction endonucleases PvuI and PvuII. The recombinant plasmids were resistant to in vitro cleavage by PvuII but not PvuI endonuclease and were found to cause production of PvuII endonuclease or methylase activity or both in Escherichia coli HB101. The approximate endonuclease and methylase gene boundaries were determined through subcloning, Bal 31 resection, insertional inactivation, DNA-dependent translation, and partial DNA sequencing. The two genes are adjacent and appear to be divergently transcribed. Most E. coli strains tested were poorly transformed by the recombinant plasmids, and this was shown by subcloning and insertional inactivation to be due to the PvuII methylase gene. At a low frequency, stable methylase-producing transformants of a methylase-sensitive strain were obtained, and efficiently transformed cell mutants were isolated from them.     

Inhibition of mutation induction and unchanged mutational specificity inEscherichia coli K12 overproducing the RecA protein

Induced mutagenesis was studied inEscherichia coli K12 cells in relation to the level of KecA-protein (P-RecA). In experiments strains AB2497, AB2497(pBR322) and AB2497(pX02) were used. The multicopy plasmid pX02 is a recombinant of pBR322 and recA⁺ gene ofE. coli K12. Cells carrying this plasmid overproduce the P-RecA constitutively. Mutagenesis was induced by the decay of incorporated 6-³H-thymidine. Mutations of theargE3 (ochre) to Arg⁺ prototrophy were followed. Besides the frequency of mutations, mutagenic specificity was determined. In cells AB2497(pX02) which overproduce the P-RecA the yield of Arg⁺ revertants was markedly reduced compared with that in strains AB2497 or AB2497(pBR322), whereas the mutagenic specificity was not changed. In all the strains studied the predominant type of mutation produced was the base substitution in the A: T base pair.     

Rescue of adeno-associated virus from recombinant plasmids: gene correction within the terminal repeats of AAV

We have isolated three types of pBR322-AAV recombinant plasmids that contain deletions within the 145 bp AAV terminal repeats. When the plasmids were transfected into human cells, mutants that contained deletions within the left (type I) or right (type II) terminal repeat were viable. Of four mutants examined that contained deletions in both termini (type III), only one was viable. All of the viable mutants produced AAV virions that contained wild-type AAV DNA. Furthermore, the viable type III deletion could be converted to a nonviable mutant by deleting all copies of an 11 bp sequence from its termini. We conclude that there is an efficient mechanism for correcting deletions within the AAV termini. A model that could account for these observations is also discussed.     

Cloning and orientation of the gene encoding polynucleotide phosphorylase in Escherichia coli.

Mutations which affect the activity of polynucleotide phosphorylase (PNPase) map near 69 min on the bacterial chromosome. This region of the chromosome has been cloned by inserting the kanamycin-resistant transposon Tn5 near the argG and mtr loci at 68.5 min. Large SalI fragments of chromosomal DNA containing the Tn5 element were inserted into pBR322, and selection was made for kanamycin-resistant recombinant plasmids. Two of these plasmids were found to produce high levels of PNPase activity in both wild-type and host strains lacking PNPase activity. The pnp gene was further localized and subcloned on a 4.8 kilobase HindIII-EcoRI fragment. This fragment was shown to encode an 84,000-molecular weight protein which comigrated with purified PNPase during sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The orientation of the pnp gene was determined by insertion of Tn5 into the 4.8 kilobase fragment cloned in pBR322. Some of the insertions had lost the ability to elevate the level of PNPase activity in the host bacterium. Restriction mapping of the positions of the Tn5 insertions and analysis of plasmid-encoded polypeptides in UV-irradiated maxi-cells indicated that the pnp gene is oriented in the counterclockwise direction on the bacterial chromosome.     

Sequence rearrangements may alter the in vivo superhelicity of recombinant plasmids

Electrophoretic resolution of topoisomers was used to compare the in vivo superhelicity of recombinant plasmids containing a fragment of cDNA for an immunoglobulin light chain, cloned in the two possible orientations into the BamHI site of pBR313 or pBR322. Previously, frequent transpositions of IS1 or IS5 were observed into the sequence upstream to the cloned fragment in recombinants in one orientation [(+) plasmids] but not in recombinants in the opposite, (-) orientation [(1982) Nucleic Acids Res. 10, 4525-4542]. The results of the present analyses show that, on average, (-) plasmids are less negatively supercoiled than (+) plasmids, or pBR322. These results suggest that primary sequence rearrangements in plasmids could affect their in vivo topological state, and consequently, perhaps, their effectiveness as recipients of transposable elements.     

A bacterial cell that synthesizes a protein containing the antigenic determinants of rat prolactin.

Bacterial minicells containing three different recombinant plasmids with rat prolactin cDNA sequences inserted at the Pst I site of pBR322 via the poly(dG):poly(dC) joining technique were examined for the expression of rat prolactin antigenic determinants. The three prolactin coding sequences were in the same orientation as the coding sequence of the ampicillin-resistance gene of pBR322. The presence of each of the three recombinant plasmids induced some prolactin synthesis by the bacteria as measured by immunoprecipitation with anti-prolactin antisera. About 10% of the protein synthesized from one of the plasmids, prl 3, precipitated with the antisera. These prolactin antigenic determinants were part of a larger fused protein.     

The site-specific deletion in plasmid pBR322

The formation of a deletion derivative of plasmid pBR322, designated pBR322 delta 1, was observed during cloning of various eukaryotic DNAs, when the BamHI site of the plasmid vector was used for construction of the recombinant molecules. The restriction analysis of six independently isolated pBR322 delta 1 plasmids allowed establishment of their complete identity. Similar deletion derivatives were also formed as a result of transformation of Escherichia coli cells by the linear form of vector pBR322 produced by BamHI cleavage, but not by SalI or HindIII. The endpoints of the deletion in one of the pBR322 delta 1 plasmids occurred at positions 375 and 16666 bp from the EcoRI site, as determined by sequence analysis. Formation of pBR322 delta 1 is most probably due to site-specific recombination between the sequence in the 1666-1670 bp region and the BamHI end of the linear pBR322 molecule. THe deletion was not controlled by the recA system of the host bacteria.     

Polyomavirus-plasmid recombinants capable of replicating have an enhanced transforming potential.

The frequency of transformation of rodent fibroblasts by polyomavirus is enhanced by a viral gene product, large T-antigen. However, this effect of large T-antigen cannot be demonstrated with pBR322-cloned viral DNA. Recently, it was discovered that pBR322 contains cis-acting sequences inhibitory to DNA replication in mammalian cells. Because polyomavirus large T-antigen is required for viral DNA replication, we examined the possibility that our inability to demonstrate a requirement for large T-antigen in transformation with pBR322-cloned viral DNA was due to the failure of the chimeric DNA to replicate in the transfected cells. To this end we constructed polyomavirus recombinant molecules with a plasmid (pML-2) that lacks these "poison" sequences and measured their capacity to transform cells. Here we report that recombinant plasmids capable of replicating in the transfected cells transform these cells at frequencies approximately sixfold greater than their replication-defective counterparts.     

Cloning and expression of the beta-D-phosphogalactoside galactohydrolase gene of Lactobacillus casei in Escherichia coli K-12.

Lactose metabolism in Lactobacillus casei 64H is associated with the presence of plasmid pLZ64. This plasmid determines both phosphoenolpyruvate-dependent phosphotransferase uptake of lactose and beta-D-phosphogalactoside galactohydrolase. A shotgun clone bank of chimeric plasmids containing restriction enzyme digest fragments of pLZ64 DNA was constructed in Escherichia coli K-12. One clone contained the gene coding for beta-D-phosphogalactoside galactohydrolase on a 7.9-kilobase PstI fragment cloned into the vector pBR322 in E. coli strain chi 1849. The beta-D-phosphogalactoside galactohydrolase enzyme isolated from E. coli showed no difference from that isolated from L. casei, and specific activity of beta-D-phosphogalactoside galactohydrolase was stimulated 1.8-fold in E. coli by growth in media containing beta-galactosides. A restriction map of the recombinant plasmid was compiled, and with that information, a series of subclones was constructed. From an analysis of the proteins produced by minicells prepared from transformant E. coli cells containing each of the recombinant subclone plasmids, it was found that the gene for the 56-kilodalton beta-D-phosphogalactoside galactohydrolase was transcribed from an L. casei-derived promoter. The gene for a second protein product (43 kilodaltons) was transcribed in the opposite direction, presumably under the control of a promoter in pBR322. The relationship of this second product to the lactose metabolism genes of L. casei is at present unknown.